Thermostatically operated room ventilator



Aug. l, 1950 R, D. HUszAGH Tl'ERMOSTATICALLY OPERATED ROOM VENTILATOR Filed Aug. 23, 1946 4 Sheets-Sheet 2 INVENTOR. ,PHL PH 0. H052 HGH HTTYS.

Aug. l, 1950 R. D. HuszAGH manosmrcALLY opmmn Room vENTILAToR 4 Sheefs-Sheet 5 Filed Aug.. 23, 1946 Patented Aug. 1', 19540 vUNITED 4sTArEs PATsNToFFIcE N asienta l l" VENTILATOR Ralph DfHuszagh, Chicago, Ill., assignorto Dion Manufacturing `Compa poration of Illinois ny, eClliicago, Ill., a cor` 3 Claims.

- Myinvention relates to room ventilators for I is that of properly controlling the passage of air :fromthe heating or cooling unit to the `room Fitself. Thus, in hot air heating systems it is common experience that `the radiators provided to `pass the heated air 4to` the `various, rooms are `ineffective `properly to proportion the amount ol |`heat supplied thereto. Thus, it is necessary frequentlyto adjust the shutters of these radiators l,to the, endthat the temperatures in the `Various `rooms may be kept at the desired values. This constitutes :a source of considerable annoyance and inconvenience tothe user, particularly if` a single `duct containsa remote radiator at a dif- 4ferent levelin the `building so that to increase the 4heat supply toone roompthe inhabitant must .t

`change the setting offa radiator ina room far Ydistant therefrom. 1 i 2 In one methodof automatically controlling the supply of conditioned `air to a room, the position of a `control shutter, and hence the air supply to theroom, is varied inl accordance with the Iroom, temperature. Thus, in a hot air heating (system,` as the `room temperature increases the @shutter is automatically closed whereas as the room temperature decreases the shutter is opened. `By providing automatic` means to; accomplish `this result onzallthe radiators in the various rooms or other spaces to be heated, the heated `air 'is' automatically distributed in accordance with `the various `room temperatures, and no .manual adjustment is required. i 9" zIt is an object vof my invention to provide an improved thermostatically controlled room ven--V It is a further object of my invention to provide an improved thermostatically controlled room ventilator capable of being controlled by a tem- -p erature sensitive element having small motion with variation in temperature. i

`Further it is an object of my invention to profyde an improved room ventilator having fea- Ytures of construction, combination and arrange- .ment wherein a simple and inexpensive structure is provided and in which friction losses are minimized to the end that a thermostatic control ele- ,rnent having small changes in length with temperature shall be capable of opening and closinga large shutter.

, Another object of my invention is to provide a range. y l0 i;

ventilator which may be controlled from a ternperature sensitive device located some distance therefrom but having no mechanical connection thereto. Q, Stillanother object of my invention is toprovide a remote controlled room ventilator using a temperature sensitive element and having graduated controlyover a predetermined temperature Yet another object `of my invention `is to pro,- vide a remote controlled room ventilator responsive to average `room temperature and using;a temperature sensitive device. i Thenovel features which I believe to be char-,- acteristic of my invention are set forth with particularity in the appended claims. My invention, itself, however, both as to its organization` and method ofoperation, together with furtherobijects andA advantages thereof, maybest be underlstoodby :reference to the `following description taken,` in connection with` the accompanying drawing: t l

On the drawing: l Figure 1 isa front view of; `a room ventilator constructed in `accordance `with my invention;

Figure 2 is `an enlarged sectional view taken Mthrough section II--II of Figure 1; l Figure 3 `shows anenlarged back view of the ventilator ofFigure 1; 1

Figure 4 ris `an enlarged sectional View of; the thermostat` control element of the device of` Fig- `ure 1 and taken `through section IV--f-fIV,` Fig;-

Figuren isaview showing amodiiiication` of my invention connected `for remote control;` ,1 :gv

Figure `6 shows a cross sectional view of the thermostat controlelement and the Wiring con,- gnectionsfof the device of Figure 5;

" Figures "land 8 show alternateconstructions of `theembodimentof my invention of Figurel 6,

` Figure A9 shows an alternate `arrangement of the embodiment of my invention of Figure 5. l

As shown on the drawing: l InyL the `front view ofilgure 1, the louvers of the ventilator, are indicated generally at :I0 ,whereas the control portion-thereof is indicated generallyat J2. It is the `purpose of the louvers to permit flow of air into theroom from the ducts to which the :ventilator is connected whereas the control portion determines the amount of air so admitted.:` l f The structure Aof the room ventilator is "further evider-1ty from examination oi Figure 2 which simple and effective automatically controlled room gg shows, la` ,cross section view taken through the axis II-I'I, Figure 1. In this view the control portion I2 is seen directly and behind it the remainder of the equipment. The latter portion of the equipment includes shutter I4 which is connected to shaft I6 so as to rotate therewith, thus causing the position of shutter I4 to vary as shaft It vis rotated. lin the open position shown in Figure y2, shutter I4 permits ovv of conditioned air from the inlet duct, shown generally at I8, to the outlet duct, shown generally at 2S, from the latter duct through louvers I to the room. When shutter I4 is in the closed position, it is vertically disposed with respect to shaft I6 and coacts with projection 22 in outlet duct 2e so as to prevent now of air therethrough and thusstop the ilow of conditioned air to the room.

The structure for rotating shutter I4Wi1l `bel evident from examination from Figures 2 and 3, the latter showing a rear view of the roomventilator with inlet duct t3 removed. As shown in thesefgures pinion24 is mounted on shaft I6 so Tthat rotation of the vpinion causes 'corresponding .irotation of the shaitandmotion of shutter I4. Internal gear 25 is provided to coact with pinion 234 4:and vis -pivotally mounted about its center'by :shaft 281which is vheld in place by Washers 3i] 'and vcotter pin 32. The shutter I4 is biased to the Lopen position by spring 34 -which coacts With anchors 3s and 38 to tend to cause internal gear 281m .assume the position shown in Figure 2. In fthis position, pinion r24 is 'rotated to its limit of travel'in the clockwise direction.

The natural tendency of shutter I4'to Vassume Vaniopen position by reason of 4biasing 'spring 34 risopposed by the thermostatic control mechanism f .shown `generally at 4I);V As will be described in further detail hereafter, this mechanismrcauses member 42 to move increased distances to the left-as `the temperature is increased. Inasrnuch fas `lmember '42 is pivotally connected to internal gear-'25 'by pin 44, this-motion causes corresponding angular motion of internal gear J26 and corresponding operation of shutter I4. It Will vbe evident from inspection of 'Figure 2 thatIL-have provided a simple and "convenient lmechanism `for converting the relatively7 lsmall linear motion of Amember 42 'to relatively `large fznotionfof shutter I4, and variation in the quantity of air admitted to the room. This -results in part ifrom the lever action of internal gear 26 which isviulcrumed about pin 23 rand is moved -Idyfmen1ber 42 to achieve a 'resultant linear motion of the end of internal gear 26 of much greater amount than -the motion of member -42. This motion `is furtheramplified by thecoaction of pinion -24 With internal gear 26 inasmuch as `the rotational motionof shutter I4 `about the axis of shaft I6 is relatively great as compared with the -rotational motion of internal gear 26. Thus .the ventilator may be regarded as having ltwo degrees of amplication of motion and for that reason is Vcapable of operating even though' the actual linear 'movement of member 42 is very small. Y

The structure of the thermostatcontrol mechanism, shown generally at 40, Figure 2, may best -be understood by reference to Figure 4 Which V'sh'ovvs a sectional view through the line ZIV-IV, Figure l. As shown in YFigure 4, member 42 is fconnected to housing 46 which is in threaded lengagement with member 48 which in turn is connected to the body of the room ventilator by member AI).v Members-'5D further act as a housing-*for the complete unit. Housing -46 is yfurther arranged to be rotated relative to member 48 by dial 52 so as to adjust the position of member 42 relative to the ventilator structure, thereby enabling adjustment of the room air supply for any particular length of the control element and hence any particular room temperature.

The housing 4S contains a thermostatic control element capable of moving member542 to the left as ythe temperature thereof is increased. Elements of this type are Well known in the art, one type consisting of the so-called Vernet element lin which 4the change in volume in the material results from the transformation thereof from one state to another over a particular temperature range. It is, of course, a Well known fact that a change of volume takes place in most materialsvvhen the material changes from a solid to a liquid vstate or from a liquid to a gaseous state or a change occurs in the crystal structure thereof and if such change takes place over a predetermined temperature range, an element constructedv of that material will undergo a "corresponding `length change. Such material may therefore be located Within portion-'410i housing -fias sho-wn by the dotted lines of Figure 4- so as to cause 'member 42 to move to the left *and relative to housing 4E as the `temperature increases.

The operation of 'the room ventilator of Figures 1,2, Sand liimay now be described. Asiwarm'air =is first supplied'through duct I8, the housin'glii 'has Va relatively low temperature `and member 42 Adoes not Overcome 'the tension of 'spring 1-34. Thus internal-gear 26 is caused to assume 'the lposition shown rin Figurev 2 Where shutter `I4 -i's open and a'ir from duct I8 can pass through duct 22 and `out through louvers I0. As this 'air flow continues, the room temperature .in1h Vcreases 'and the temperature of Acontrol Aelement t@ is correspondingly raised. Thel memberv f4! (thus moves to th'ef'left .andcauses corresponding motion of pin 44. Thismotion vtakes 'place in oppositionto-sprin'g 34 and causes internal gear 28 to rotate pinion 24 and shutter I4-in 'the counterclockwise direction. This reduces fthe -spa'ceavail'able for air 'flow-from duct I8 to duct '28, 'thereby Adecreasing thefair supplied vto -`the lr'oom. v'Should the room temperature? become high, "member '42 "stops all air lsupply to the room by rotatingshutter `III-.'to engagement with lstrp `22. It will'b'eund'erstoodiof course, that actually .the-room temperature will rise to the point 'fat which 'the amount Aof air vpermitted to 'ilowfr'om duct fI'B to duct 20is just that required to-mainta'in Kthertemperature'of :control unit '40 -a't the l`value `corresponding to the position fof shutter l"I4. Under thiscondition external influences tending to heat or cool 4the room merel-y'initi'ate com'- Ypensatmiy. changes 1in-the position of shutter- I4.

lIt' will y=be- 'obvious that when `dial f52 isrotated, thereby causing member 42 to have a different position relative to the ventilator structure for any particular temperature, the regulated temi peinture'achieved `by fthe'unitis varied. "If, for example, dial 52 is rotatedso 'as to 'move member 42 to the left as shown `in' Figure 4, 'shutter *Ii has a more nearly closedpositicn'fat'any 'one 'temperature and the regulated 'roomtemperature is correspondingly reduced. "0n 'the other hand,` if vdial E2 is rotated `so Vas to move 'member i2 Avto 'the right, the regulated temperature is increased.

Figures 5 'and 6 sh'ovv'a'n `alternative construei -tionof my `improved ventilator vsuitable for use in situations wherein remote control `ol lthe room temperature is desired, AsshoW-n `diagrammati- 'ca-lly 4in Figure 5, a remote pontrolf thermostat R55 54 is provided at some location inthe room wherein a desired temperature is to be `maintained. This thermostat is connected by electrical wiring 56 tothe ventilator, shown generally at 58- Figure 6 shows the detailed .structure of the remote thermostat and the control portion of ventilator 58. As shown in Figure 6, thermostat 54 consists of a bimetal element 60 which comprises two bars of metal having different temperature coefcients of expansion so that as the members are heated or cooled they move relative to each other and cause contact 62 to open or close, contact 62 closing as the temperature increases. The thermostat control element used in the ventilator 58 is identical with that shown in Figure 4 except that heating coil 64 is provided and is connected in circuit with battery 66 so that when contacts 62 are closed heat is supplied to the housing 46 whereas when contacts 62 are open, no heat is supplied thereto.

In the operation `ofthe alternative form of `my invention shown inFigures 5 and 6, when the temperature at thermostat 54 exceeds a predetermined amount contacts 62 are closed, thereby connectingr heating element 64 in the circuit` of battery 66 and causing housing member 46 to be articially heated. This increases the temperature of member 46 and moves member 42 to the left. As this member is located in a structure similar to that of Figures l, 2, and 3, the

Qment 68 and the supply of heat due to coil 64 is removed. Control member 46 accordingly decreases in temperature and contracts so as to cause member 42 to move to the right as shown in Figure 6 and Figure 2. This causes shutter I4 to open, thereby supplying heated air to the room and increasing the temperature thereof.

Further alternate constructions of the embodiments of my invention shown in Figure 6 are shown in Figures 7 and 8. In these figures the room ventilator is arranged for remote control in a manner similar to the embodiment of Figure 6 but greater renement of control is achieved by using a control thermostat 68 having a plurality of contacts 'lll located on adjacent leaf springs 12. As the bimetal element 14 increases in temperature, an electrical connection is made between it and the rst of contacts 18. Further heating causes contact between the element I4 and both the first and second of the contacts whereas additional heating causes all three contacts 18 to be connected to each other and to the bimetal element 14. Heating coils T6, 18, and 80 are each connected to one of contacts 18 so that when element 'i4 successively contacts these contacts, the coils are connected in the series with the secondary winding of transformer 82. Terminals 84 of the primary Winding of transformer 82 may be connected to a source of alternating voltage, such as the house electrical supply circuit, thus producing induced voltages in the secondary winding to heat coils 16, 18, and 80 when connected to that winding by contacts 'lo and bimetal element 14.

In the embodiment of my invention shown in Figure 7, the coils 16, 18, and 8U operate to increase the temperature of temperature sensitive elements 86, 88, and 98 respectively These are located within a common housing 92 which is positioned with respect to housing 50 by a screw this case increased total heating of the coils rei `largershutter than could otherwise be used.

In the embodiment of my invention shown in Figure 8, the coils 16, 18, and 8U operate to heat the single temperature sensitive element 46. In

sults in greater temperature of that element and henceincreased motion `of member 42 and corresponding closing of theshutter of the room ventilator. i f,

Figure 9 shows an alternate embodiment Aof the form of my inventionshown in Figure 5. In this case, the thermostat control element 5.4;is

i locatedin outlet duct 94 ratherfthan at a particular point in the room. Inasmuch :as the air temperature in the outlet duct corresponds to the integrated or average temperature of the air throughout the room, the opening and closing of the shutter of room ventilator icorresponds with that temperature rather than the air .at a particular point as in the case of thev embodiment of Figure 5. This arrangement is therefore desirable in those cases where the average room temperature rather than the temperature at a particular point is to be maintained. constant.

It will be observed that in the embodiments of my invention shown in Figures 5 to 9 a remote controlled room ventilator is provided` which takes advantage of the characteristicsof a temperature sensitive element such as a Vernet element to control the admission of air to the room. This construction has the advantage of improved simplicity and reliability of operation over the use of a motor or other device to actuate the shutter of the ventilator in accord with temperature at a remote point. Furthermore, the expense of the installation is greatly reduced as inherently simple electrical wiring is used and the cost oi the control elements is much less than that of corresponding motors. Yet another advantage resides in the fact that the heating coils may be applied to standard room ventilators of the construction shown in Figures 1 to 4, thereby taking advantage of mass production of these units to reduce the cost of the remote control units.

It is the purpose of spring 34, Figure 2, continually to urge member 42 to the right, thus urging shutter I4 to the open position. This is particularly desirable inasmuch as most thermostat control elements of the Vernet or similar types are capable of producing considerable expansive force but are incapable of producing pulling or tension force. As will be evident from eX- amination of Figure 2, there is no need for tensile stress within the element connected to member 42 inasmuch as spring 34 provides the necessary pull. In effect, member 42 merely overcomes to a greater or lesser degree the natural bias of spring 34.

While I have shown particular embodiments of my invention, it will, of course be understood that I do not wish to be limited thereto since many modifications and alternative constructions may be made without departing from the spirit or scope thereof. I, of course, contemplate by the appended claimsto cover any such modifications as fall within the true spirit and scope of my invention.

'faegsfigeve f7 I claimt asl my rinventin: i lil-In c'ombination; a roon ventilator having` a @lduct for conditionedair in communication with v`:fsaid `room;and:ash'ntter to openand'close said uctptemperature responsivefmeans tov actuatea A'room ventilator to adinit 'controlledxqifantities vof co1iditionedair-from a ydi1ct tot a'y `room "f or tlie` like (comprising "in fcombination, a houssingdening an air-passage' from said duct "to said 5 f-ro'om, a Eshutter to control air ow through said fpassage; a shaft;` means-'connecting said shutter -ite-'saidshaftffftoclose or' open said passagelas said shaft is rotated, apinion mounted forretakitioriwwith'said shaft, a gear in operative engageandfimdirentionito'maintain""constant the 'tem-flv-n'ent with''saidpinion, whereby rotation of" said .Y eratureoiffsaid elements, a plurality of 'heating "icoilsf disposed about 'said elements so'f'thatilsaid #elements partake: of 'the' average temperaturepf fsaid `coilsgfand*means selectively toheat said coils,

-gearfopens'fand closes said shuttennieans piv- .:fotallyv supportingfsaid gearfor rotationalmovevsupported `-froln Ls'aidvliousing to rotate said gear f'said means ilie'ating saidr coils'when tl'ieftennpera-l v115 accordT Withfroon temperature, said meansA in- \.;f.turei'at`f a remote point in saidv roomzexce'edsVV a predetermined value, said last means 'causing' a nz'xprogres'sively" greater'umber yoifsaid coils 'to be eated' 'as the temperature atsaid remote point means :isf eorrespondin'gly` heated: and the :air

ik supplyfrom `said tduct variedA accordingly.

12.In:cembinaton, a room ventilator havingf` a if.' duct," for .'conditio-ned air in" communication A w'lit'n izfsaid-room andl a/fshutter'to 'openland closelsaid: 25

fflage temperature of'saidcoils; and means selec- 35 r -tivelyfto :heat` said' coils; said means cheating fsaid vf'coilswlienthe temperatureat-a remote peint in 'i-said s room exceeds a predetermined value, said elast means causingv a progressively `greater ninntherefor saidcoilsf-tovbe heated as the-temperature n at'vsaid remote'point increases, whereby said tei-m -Jpe'rature responsive Vmeans is vvcforrespondin y heated; and-,the airssupply-frorn said-duct varied :-:accordinglv "cliiding an'larin'' spported for shiftingmovement to rotatesaid'` gear and temperature sensitive ele- @merits having length Vvarying in accordy With-:tem- .speratui'e operable to shift said arm in a direction ncreases,1f'whereby said-temperature:responsivefzn to cl'osesaidshutter as the room temperature "increases,- andfmanually operable means for 'relactive adjustment'of said arm tovary the position f-of saidfrshutter conformance with predeter- `mined'roomtemperatures. 5

.RALPH lD.l HUSZAGH,`

LFENCESTCITED u'The' following' references are of recordin'fthe NITEDSTATES' PATENTS ,A 1- Date i.

Num-ber f Name l 1,756,688 #'fI-Iut'chinson Apr. 29,11%() 11,783,574 Lawler Dec.y 2, 19.30

1,996,237 Folds Apr.y 2, .-1935 2,122,659 n Stuart June y28, 19,38 2,2405354 Smith- Y Apr. 29, 1,941

" FOREIGN PATENTS 

